RU229389U1 - SOURCE OF PULSE LASER RADIATION - Google Patents

Abstract

The utility model relates to laser technology, namely to optical radiation combiners, for example, semiconductor lasers, and can be used to amplify the power of laser radiation in fiber-optic communication lines, networks, information and measuring systems, technological equipment, in household appliances, medicine, identification and guidance systems, for protecting objects from strangers and fire, laser weapons and others. The technical result is an increase in the energy and amplitude of the laser radiation pulse without increasing the energy consumption of the laser. The source of pulsed laser radiation contains a master tunable generator of rectangular pulses, the output of which is connected to the input of the pulse laser, as well as a means of annular optical delay made from a section of optical fiber in the form of a ring, the output of which is connected to the information input of the switching device, and the output of the switching device is connected to the focusing system, wherein the output of the master oscillator is additionally connected through a pulse counter to the control input of the switching device. The source differs from the known ones in that the proposed source of pulsed laser radiation consists of several links connected in series, wherein each link contains a means of a ring optical delay, a switching device and a pulse counter, the frequency to which the pulse counter of each i -th link is set is reduced by N _{i - 1} times relative to the frequency to which the counter of the previous ( i -1)-th link is set, and the last link is connected to a focusing system installed at the output of the switching device of the last link.

Description

The utility model relates to laser technology, namely to optical radiation combiners, for example, semiconductor lasers, and can be used to amplify the power of laser radiation in fiber-optic communication lines, networks, information and measuring systems, technological equipment, in household appliances, medicine, identification and guidance systems, for protecting objects from strangers and fire, laser weapons and others.

A source of pulsed laser radiation is known [patent No. 2477553, IPC H01S3/10, G02B27/10, published 10.03.2013], which comprises a series-connected master oscillator, a pulsed laser optically coupled to each other, an optical switch, a matching unit with an optical delay means, an optical delay means made, for example, from sections of optical fiber, an optical means for summing radiation, and a focusing system for forming a given beam pattern at the output of the optical means for summing radiation, wherein the output of the master oscillator is connected to the control input of the optical switch. Pulses of optical radiation from the laser are fed to the input of the optical switch, which, under the action of control pulses from the master oscillator, sequentially directs them to the elements of the optical delay. Optical pulses of laser radiation delayed for a given time are fed simultaneously to the inputs of the summing device. As a result, a pulse is formed at the output of the optical means of radiation summation, having an intensity approximately equal to the sum of the intensities of the laser radiation pulses received from the optical delay lines, excluding losses in the system. The resulting laser beam is then focused by the focusing system.

The disadvantage of the considered device is the difficulty of obtaining a significant increase in the intensity of laser radiation pulses at the output of the summing device, since this requires increasing the number of optical delay lines and using delay lines with a long delay time for this. At the same time, to obtain a long delay time, a large length of optical fiber is required, in which the optical radiation will be significantly attenuated. As a result, the intensity of the total radiation will be limited. Another disadvantage of the device is a significant deterioration in its weight and size characteristics, associated with an increase in the number of optical delay lines.

The closest device in technical essence to the claimed technical solution and accepted as a prototype is recognized as a source of pulsed laser radiation (RU 189 439, IPC H01S 3/10, G02B 6/00, published on 22.05.2019), which contains a series-connected master tunable rectangular pulse generator, a pulse laser optically coupled to each other, a ring optical delay means, a switching device and a focusing system, wherein the output of the master tunable rectangular pulse generator is connected through a pulse counter to the control input of the switching device. The source of pulsed laser radiation operates as follows. Pulses from the master oscillator with a frequency of (1/ T ) are fed to the input of the pulse laser. Then, the optical radiation pulses from the laser, after a specified period T, are fed to the ring optical delay means. The optical radiation pulse circulates along the fiber optic ring until a new (next) pulse from the laser arrives at the delay line, and the cycle continues until a certain number of revolutions depends on the permissible attenuation in the delay line. In this case, electrical pulses with a frequency N times lower than the frequency (1/ T ) of pulses generated by the master oscillator arrive from the pulse counter output to the control input of the switching device. When an electrical pulse arrives from the counter to the control input of the switching device, the switching device switches the optical radiation circulation channel along the ring optical delay to the output of the switching device, where an optical radiation pulse is formed with an amplitude approximately equal to the sum of the intensities of the laser radiation pulses arriving at the input of the ring optical delay means over a period of N⋅T , determined by the pulse repetition period from the counter, excluding losses in the system. The resulting laser beam is then focused by the focusing system. As a result, pulsed laser radiation is formed at the output of the device, significantly exceeding the intensity of the pulses of the original laser radiation of the laser.

The amplitude of the laser radiation pulse at the output of the device will not increase infinitely with each circulation of the optical signal in the ring optical delay device, but will increase by no more than 5...10 times due to the increase in optical signal losses with an increase in the number of circulations.

Thus, the disadvantage of the prototype is the limitation of the increase in the amplitude of the laser pulse due to losses in the ring optical delay device.

The technical problem that the utility model is aimed at solving is increasing the energy and amplitude in the form of peak power of a laser radiation pulse.

The technical result is an increase in the energy and amplitude of the laser radiation pulse without increasing the energy consumption of the laser.

The specified problem is solved in that the source of pulsed laser radiation contains a master tunable generator of rectangular pulses, the output of which is connected to the input of the pulsed laser, as well as a means of an annular optical delay made from a section of optical fiber in the form of a ring, the output of which is connected to the information input of the switching device, and the output of the switching device is connected to the focusing system, wherein the output of the master oscillator is additionally connected through a pulse counter to the control input of the switching device. The source differs from the known ones in that the proposed source of pulsed laser radiation consists of several links connected in series, wherein each link contains a means of an annular optical delay, a switching device and a pulse counter, the frequency to which the pulse counter of each i -th link is tuned decreases by N _{i - 1} times relative to the frequency to which the counter of the previous ( i -1)-th link is tuned, and the last link is connected to the focusing system through the switching device of this section.

Figure 1 shows a structural diagram of the proposed device; Figure 2 shows a diagram of the propagation of radiation in the proposed device.

The source of pulsed laser radiation consists of a master tunable generator of rectangular pulses 1, a pulse laser 2 and several links connected in series. The links contain a means of an annular optical delay 3, a switching device 4 and a pulse counter 6 connected to the control input of the switching device 4. The output of the master generator 1 is connected through the pulse counter 6 to the control input of the switching device 4 of each of the links. Blocks 2, 3, 4 are optically connected to each other. The pulse laser 2 is connected to the means 3 of the annular optical delay of the firstIlink. The switching device 4 of the previous link is connected to the means 3 of the ring optical delay of the next link. links. The number of links of the radiation source is determined by the attenuation of the optical signal circulating along the ring delay line. The lastkThe link is connected to the focusing system 5.

The source of pulsed laser radiation operates as follows.

Pulses from the master oscillator 1 arrive at the input of the pulse laser 2. Pulses of optical radiation from the laser 2 arrive after a given period T at the means of the ring optical delay 3 of the first I link. The pulse of optical radiation circulates along the ring of the optical fiber until a new pulse from the laser arrives at the delay line, and the cycle continues until a certain number of revolutions N ₁ , depending on the permissible attenuation in the delay line. In this case, from the output of the pulse counter 6, tuned to the frequency (1/ T ), electrical pulses with a frequency N ₁ times less than the frequency (1/ T ) of pulses generated by the master oscillator 1 are fed to the control input of the switching device 4. When an electrical pulse is fed from the counter 6 to the control input of the switching device 4, the switching device switches the optical radiation circulation channel along the annular optical delay 3 to the output of the switching device 4, where an optical radiation pulse is formed with an amplitude equal to the sum of the intensities of the laser radiation pulses fed to the input of the annular optical delay means for a period N ₁ ⋅ T , determined by the pulse repetition period from the counter 6. Then, the amplified optical pulse signal from the output of the switching device 4 of the first I link of the radiation source is fed to the annular optical delay means 3 of the second II link of the radiation source and, after a specified number of circulations N ₂ along the delay line, determined by the counter 6, tuned to the frequency of (1/ N ₁ ⋅ T ), the second II link of the radiation source, is fed to the input of the switching device 4 of the second II link of the radiation source. From the output of the switching device 4, the amplified optical signal is fed to the elements of the third III link of the radiation source. A similar process of amplification of the optical pulse signal occurs in the following links III - k. In the last k link, the pulse counter 6 is tuned to the frequency of (1/ N ₁ ⋅N ₂ ⋅ … ⋅N _{k -1} ⋅ T ). At the output of the switching device of the last k link, the amplified laser beam is focused by the focusing system 5. In this case, the pulse repetition frequency at the output of the device will be N ₁ ⋅N ₂ ⋅ … ⋅N _k times lower than the frequency (1/ T ) of the original pulses emitted by the laser.

As a result, pulsed laser radiation is formed at the output of the proposed device, significantly exceeding in intensity the pulses at the output of the first I link of the laser radiation source and the initial radiation pulses of laser 2.

Literature

1. Patent No. 2477553 RU, IPC H01S3/10, G02B27/10. Pulsed laser radiation source. Application: 2011137390/28 dated 09.09.2011. Published 10.03.2013, Bulletin No. 7.

2. Patent 189 439 RU for utility model, IPC7 H01S 3/10, G02B 6/00. Pulsed laser radiation source. Application: 2018137513 dated 23.10.2018. Published 22.05.2019, Bulletin No. 15.

Claims (1)

A source of pulsed laser radiation comprising a master tunable generator of rectangular pulses, the output of which is connected to the input of a pulsed laser, as well as a means of an annular optical delay made from a section of optical fiber in the form of a ring, the output of which is connected to the information input of a switching device, and the output of the switching device is connected to a focusing system, wherein the output of the master tunable generator is additionally connected through a pulse counter to the control input of the switching device, characterized in that said source of pulsed laser radiation comprises several links connected in series, wherein each link comprises a means of an annular optical delay, a switching device and a pulse counter, the frequency to which the pulse counter of each i -th link is set is reduced by N _{i - 1} times relative to the frequency to which the counter of the previous ( i -1) -th link is set, and the last link of the radiation source is connected to a focusing system installed at the output of the switching device of the last link.